/**************************************************************************** * apps/system/zmodem/zm.h * * Copyright (C) 2013, 2018 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * References: * "The ZMODEM Inter Application File Transfer Protocol", Chuck Forsberg, * Omen Technology Inc., October 14, 1988 * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name NuttX nor the names of its contributors may be * used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ #ifndef __APPS_SYSTEM_XMODEM_ZM_H #define __APPS_SYSTEM_XMODEM_ZM_H /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include "system/zmodem.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* ZModem *******************************************************************/ /* Zmodem ZRINIT flags. These bits describe the cababilities of the receiver. * Reference: Paragraph 11.2: */ #define CANFDX (1 << 0) /* Rx can send and receive true FDX */ #define CANOVIO (1 << 1) /* Rx can receive data during disk I/O */ #define CANBRK (1 << 2) /* Rx can send a break signal */ #define CANCRY (1 << 3) /* Receiver can decrypt */ #define CANLZW (1 << 4) /* Receiver can uncompress */ #define CANFC32 (1 << 5) /* Receiver can use 32 bit Frame Check */ #define ESCCTL (1 << 6) /* Receiver expects ctl chars to be escaped */ #define ESC8 (1 << 7) /* Receiver expects 8th bit to be escaped */ /* Zmodem ZSINIT flags. These bits describe the capabilities of the sender */ #define TESCCTL (1 << 6) /* Sender needs control chars escaped */ #define TESC8 (1 << 7) /* Sender needs 8th bit escaped. */ /* ZFILE transfer flags */ /* F0 */ #define ZCBIN 1 /* Binary transfer */ #define ZCNL 2 /* Convert NL to local eol convention */ #define ZCRESUM 3 /* Resume interrupted xfer or append to file. */ /* F1 */ #define ZMNEWL 1 /* Transfer if source newer or longer */ #define ZMCRC 2 /* Transfer if different CRC or length */ #define ZMAPND 3 /* Append to existing file, if any */ #define ZMCLOB 4 /* Replace existing file */ #define ZMNEW 5 /* Transfer if source is newer */ #define ZMDIFF 6 /* Transfer if dates or lengths different */ #define ZMPROT 7 /* Protect: transfer only if dest doesn't exist */ #define ZMCHNG 8 /* Change filename if destination exists */ #define ZMMASK 0x1f #define ZMSKNOLOC (1 << 7) /* Skip if not present at receiving end */ /* F2 */ #define ZTLZW 1 /* lzw compression */ #define ZTRLE 3 /* Run-length encoding */ /* F3 */ #define ZCANVHDR 1 /* Variable headers ok */ #define ZRWOVR 4 /* Byte position for receive window override/256 */ #define ZXSPARS 64 /* Encoding for sparse file ops. */ /* ATTN string special characters. All other characters sent verbose */ #define ATTNBRK 0xdd /* Send break signal */ #define ATTNPSE 0xde /* Pause for one second */ /* Zmodem header types */ #define ZRQINIT 0 /* Request receive init */ #define ZRINIT 1 /* Receive init */ #define ZSINIT 2 /* Send init sequence, define Attn */ #define ZACK 3 /* ACK */ #define ZFILE 4 /* File name, from sender */ #define ZSKIP 5 /* Skip file command, from receiver */ #define ZNAK 6 /* Last packet was garbled */ #define ZABORT 7 /* Abort */ #define ZFIN 8 /* Finish session */ #define ZRPOS 9 /* Resume file from this position, from receiver */ #define ZDATA 10 /* Data packets to follow, from sender */ #define ZEOF 11 /* End of file, from sender */ #define ZFERR 12 /* Fatal i/o error, from receiver */ #define ZCRC 13 /* Request for file crc, from receiver */ #define ZCHALLENGE 14 /* "Send this number back to me", from receiver */ #define ZCOMPL 15 /* Request is complete */ #define ZCAN 16 /* Other end cancelled with CAN-CAN-CAN-CAN-CAN */ #define ZFREECNT 17 /* Request for free bytes on filesystem */ #define ZCOMMAND 18 /* Command, from sending program */ #define ZSTDERR 19 /* Output this message to stderr */ /* Zmodem character definitions */ #define ZDLE ASCII_CAN /* Zmodem escape is CAN */ #define ZDLEE (ZDLE^0x40) /* Escaped ZDLE */ #define ZPAD '*' /* pad */ #define ZBIN 'A' /* 16-bit CRC binary header */ #define ZHEX 'B' /* 16-bit CRC hex header */ #define ZBIN32 'C' /* 32-bit CRC binary header */ #define ZBINR32 'D' /* RLE packed binary frame w/32-bit CRC */ #define ZVBIN 'a' /* Alternate ZBIN */ #define ZVHEX 'b' /* Alternate ZHEX */ #define ZVBIN32 'c' /* Alternate ZBIN32 */ #define ZVBINR32 'd' /* Alternate ZBINR32 */ #define ZRESC 0x7f /* RLE flag/escape character */ /* ZDLE escape sequences */ #define ZCRCE 'h' /* CRC next, frame ends, header follows */ #define ZCRCG 'i' /* CRC next, frame continues nonstop */ #define ZCRCQ 'j' /* CRC next, send ZACK, frame continues nonstop */ #define ZCRCW 'k' /* CRC next, send ZACK, frame ends */ #define ZRUB0 'l' /* Translate to 0x7f */ #define ZRUB1 'm' /* Translate to 0xff */ /* Implementation ***********************************************************/ /* Zmodem Events (same as frame type + data received and error events) */ #define ZME_RQINIT ZRQINIT /* Request receive init */ #define ZME_RINIT ZRINIT /* Receive init */ #define ZME_SINIT ZSINIT /* Send init sequence, define Attn */ #define ZME_ACK ZACK /* ACK */ #define ZME_FILE ZFILE /* File name, from sender */ #define ZME_SKIP ZSKIP /* Skip file command, from receiver */ #define ZME_NAK ZNAK /* Last packet was garbled */ #define ZME_ABORT ZABORT /* Abort */ #define ZME_FIN ZFIN /* Finish session */ #define ZME_RPOS ZRPOS /* Resume file from this position, from receiver */ #define ZME_DATA ZDATA /* Data packets to follow, from sender */ #define ZME_EOF ZEOF /* End of file, from sender */ #define ZME_FERR ZFERR /* Fatal i/o error, from receiver */ #define ZME_CRC ZCRC /* Request for file CRC, from receiver */ #define ZME_CHALLENGE ZCHALLENGE /* "send this number back to me", from receiver */ #define ZME_COMPL ZCOMPL /* Request is complete */ #define ZME_CAN ZCAN /* Other end cancelled with CAN-CAN-CAN-CAN-CAN */ #define ZME_FREECNT ZFREECNT /* Request for free bytes on filesystem */ #define ZME_COMMAND ZCOMMAND /* Command, from sending program */ #define ZME_STDERR ZSTDERR /* Output this message to stderr */ #define ZME_CANCEL 251 /* Received the cancellation sequence */ #define ZME_OO 252 /* Received OO, terminating the receiver */ #define ZME_DATARCVD 253 /* Data received */ #define ZME_TIMEOUT 254 /* Timeout */ #define ZME_ERROR 255 /* Protocol error */ /* Bit values for flags in struct zm_state_s */ #define ZM_FLAG_CRC32 (1 << 0) /* Use 32-bit CRC */ #define ZM_FLAG_CRKOK (1 << 1) /* CRC is okay */ #define ZM_FLAG_EOF (1 << 2) /* End of file reached */ #define ZM_FLAG_ATSIGN (1 << 3) /* Last char was '@' */ #define ZM_FLAG_ESCCTRL (1 << 4) /* Other end requests ctrl chars be escaped */ #define ZM_FLAG_ESC (1 << 5) /* Next character is escaped */ #define ZM_FLAG_WAIT (1 << 6) /* Next send should wait */ #define ZM_FLAG_APPEND (1 << 7) /* Append to the existing file */ #define ZM_FLAG_TIMEOUT (1 << 8) /* A timeout has been detected */ #define ZM_FLAG_OO (1 << 9) /* "OO" may be received */ /* The Zmodem parser success/error return code definitions: * * < 0 : Transfer terminated due to an error * = 0 : Transfer still in progress * > 0 : Transfer completed successfully */ #define ZM_XFRDONE 1 /* Success - Transfer complete */ /* The actual packet buffer size includes 5 bytes to hold the transfer type * and the maxmimum size 4-byte CRC. */ #define ZM_PKTBUFSIZE (CONFIG_SYSTEM_ZMODEM_PKTBUFSIZE + 5) /* Debug Definitions ********************************************************/ /* Non-standard debug selectable with CONFIG_DEBUG_ZMODEM. Debug output goes * to stderr (not syslog). Enabling this kind of debug output if your are * trying to use the console device I/O for file transfer is obviously a bad * idea (unless, perhaps, you redirect stdin and stdout). * * See also CONFIG_SYSTEM_ZMODEM_DUMPBUFFER. */ #ifdef CONFIG_DEBUG_ZMODEM # define zmprintf(format, ...) syslog(LOG_INFO, format, ##__VA_ARGS__) # define zmdbg(format, ...) syslog(LOG_INFO, EXTRA_FMT format EXTRA_ARG, ##__VA_ARGS__) #else # undef CONFIG_SYSTEM_ZMODEM_DUMPBUFFER # define zmprintf(x...) # define zmdbg(x...) #endif /**************************************************************************** * Public Types ****************************************************************************/ /* The state of the parser */ enum parser_state_e { PSTATE_IDLE = 0, /* Nothing in progress */ PSTATE_HEADER, /* Parsing a header following ZPAD ZDLE */ PSTATE_DATA, /* Sending/receiving data */ }; /* PSTATE_IDLE substates */ enum pidle_substate_e { PIDLE_ZPAD = 0, /* Waiting for ZPAD */ PIDLE_ZDLE, /* ZPAD received, waiting for ZDLE */ PIDLE_OO /* First 'O' received, waiting for second 'O' of "OO" */ }; /* PSTATE_HEADER substates */ enum pheader_substate_e { PHEADER_FORMAT = 0, /* Waiting for the header format {ZBIN, ZBIN32, ZHEX} */ PHEADER_PAYLOAD, /* Waiting for header data {Type Pn/Fn CRC} */ PHEADER_LSPAYLOAD, /* Waiting for LS nibble of header data (ZHEX only) */ }; /* PSTATE_DATA substates */ enum pdata_substate_e { PDATA_READ = 0, /* Waiting for ZDLE */ PDATA_CRC /* Have the packet type, accumulating the CRC */ }; /* This type describes the method to perform actions at the time of * a state transition. */ struct zm_state_s; typedef int (*action_t)(FAR struct zm_state_s *pzm); /* State transition table entry. There is one row of the table per possible * state. Each row is a row of all reasonable events for this state and long * the appropriate state transition and transition action. */ struct zm_transition_s { uint8_t type; /* Event (Frame type) */ bool bdiscard; /* TRUE: discard buffered input */ uint8_t next; /* Next state */ action_t action; /* Transition action */ }; /* Common state information. This structure contains all of the top-level * information needed by the common Zmodem receive and transmit parsing. */ struct zm_state_s { /* User-provided values ***************************************************/ /* These file/socket descriptors are used to interact with the remote end */ int fdin; /* Probably 0 (stdin) */ int fdout; /* probably 1 (stdout) */ /* System internal values *************************************************/ /* evtable[] is the state transition table that controls the state for this * current action. Different state transitions tables are used for Zmodem * vs. XY modem and for receive and for transmit. */ FAR const struct zm_transition_s * const * evtable; /* State information, common fields, plus parser-specific fields. * Notes: * (1) Only valid during parsing. */ uint8_t pstate; /* Current parser state */ uint8_t psubstate; /* Current parser sub-state (1) */ uint8_t state; /* Current transfer state; index into evtable[] */ uint8_t timeout; /* Timeout in seconds for incoming data */ uint8_t ncrc; /* Number of bytes in CRC: 2 or 4 (1) */ uint8_t ncan; /* Number of consecutive CAN chars received (1) */ uint8_t hdrfmt; /* Header format {ZBIN, ZBIN32, or ZHEX} */ uint8_t hdrndx; /* Index into hdrdata (1) */ uint8_t hdrdata[9]; /* 1-byte + 4-byte payload + 2- or 4-byte CRC */ uint8_t pkttype; /* Type of data packet {ZCRCW, ZCRCE, ZCRCG, ZCRCQ} */ uint16_t rcvlen; /* Number valid bytes in rcvbuf[] */ uint16_t rcvndx; /* Index to the next valid bytes in rcvbuf[] (1) */ uint16_t pktlen; /* Number valid bytes in pktbuf[] */ uint16_t flags; /* See ZM_FLAG_* definitions */ uint16_t nerrors; /* Number of data errors */ timer_t timer; /* Watchdog timer */ int remfd; /* The R/W file descritor used for communication with remote */ /* Buffers. * * rcvbuf - Data from the remote peer is receive this buffer * pktbuf - un-escaped remote peer data is parsed into this buffer * scratch - Holds data sent to the remote peer. Since the data is this * buffer is short lived, this buffer may also be used for other * scratch purposes. */ uint8_t rcvbuf[CONFIG_SYSTEM_ZMODEM_RCVBUFSIZE]; uint8_t pktbuf[ZM_PKTBUFSIZE]; uint8_t scratch[CONFIG_SYSTEM_ZMODEM_SNDBUFSIZE]; #ifdef CONFIG_SYSTEM_ZMODEM_SNDFILEBUF uint8_t filebuf[CONFIG_SYSTEM_ZMODEM_SNDBUFSIZE]; #endif }; /* Receive state information */ struct zmr_state_s { /* Common state data ******************************************************/ struct zm_state_s cmn; /* State data unique to the Zmodem receive implementation *****************/ uint8_t rcaps; /* Receiver capabilities */ uint8_t scaps; /* Sender capabilities */ uint8_t f0; /* Transfer flag F0 */ uint8_t f1; /* Transfer flag F1 */ #if 0 /* Not used */ uint8_t f2; /* Transfer flag F2 */ uint8_t f3; /* Transfer flag F3 */ #endif uint8_t ntimeouts; /* Number of timeouts */ uint32_t crc; /* Remove file CRC */ FAR const char *pathname; /* Local pathname */ FAR char *filename; /* Local filename */ FAR char *attn; /* Attention string received from remote peer */ off_t offset; /* Current file offset */ off_t filesize; /* Remote file size */ #ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS time_t timestamp; /* Remote time stamp */ #endif int outfd; /* Local output file descriptor */ }; /* Send state information */ struct zms_state_s { /* Common state data ******************************************************/ struct zm_state_s cmn; /* State data unique to the Zmodem send implementation ********************/ uint8_t dpkttype; /* Streaming data packet type: ZCRCG, ZCRCQ, or ZCRCW */ uint8_t fflags[4]; /* File xfer flags */ uint16_t rcvmax; /* Max packet size the remote can receive. */ #ifdef CONFIG_SYSTEM_ZMODEM_TIMESTAMPS uint32_t timestamp; /* Local file timestamp */ #endif #ifdef CONFIG_SYSTEM_ZMODEM_SENDATTN FAR char *attn; /* Attention string */ #endif FAR const char *filename; /* Local filename */ FAR const char *rfilename; /* Remote filename */ off_t offset; /* Current file offset */ off_t lastoffs; /* Last acknowledged file offset */ off_t zrpos; /* Last offset from ZRPOS */ off_t filesize; /* Size of the file to send */ int infd; /* Local input file descriptor */ }; /**************************************************************************** * Public Data ****************************************************************************/ #undef EXTERN #if defined(__cplusplus) #define EXTERN extern "C" extern "C" { #else #define EXTERN extern #endif /* A handy sequence of 4 zeros */ EXTERN const uint8_t g_zeroes[4]; /* Paragraph 8.4. Session Abort Sequence * * "If the receiver is receiving data in streaming mode, the Attn sequence * is executed to interrupt data transmission before the Cancel sequence is * sent. The Cancel sequence consists of eight CAN characters and ten * backspace characters. ZMODEM only requires five Cancel characters, the * other three are "insurance". * * "The trailing backspace characters attempt to erase the effects of the * CAN characters if they are received by a command interpreter. */ #define CANISTR_SIZE (8+10) EXTERN const uint8_t g_canistr[CANISTR_SIZE]; /**************************************************************************** * Public Function Prototypes ****************************************************************************/ /**************************************************************************** * Name: zm_bytobe32 * * Description: * Convert a sequence of four bytes into a 32-bit value. The byte * sequence is assumed to be big-endian. * ****************************************************************************/ uint32_t zm_bytobe32(FAR const uint8_t *val8); /**************************************************************************** * Name: zm_bytobe32 * * Description: * Convert a 32-bit value in a sequence of four bytes in big-endian byte * order. * ****************************************************************************/ void zm_be32toby(uint32_t val32, FAR uint8_t *val8); /**************************************************************************** * Name: zm_encnibble * * Description: * Encode an 4-bit binary value to a single hex "digit". * ****************************************************************************/ char zm_encnibble(uint8_t nibble); /**************************************************************************** * Name: zm_encnibble * * Description: * Decode an 4-bit binary value from a single hex "digit". * ****************************************************************************/ uint8_t zm_decnibble(char hex); /**************************************************************************** * Name: zm_puthex8 * * Description: * Convert an 8-bit binary value to 2 hex "digits". * ****************************************************************************/ FAR uint8_t *zm_puthex8(FAR uint8_t *ptr, uint8_t ch); /**************************************************************************** * Name: zm_read * * Description: * Read a buffer of data from a read-able stream. * ****************************************************************************/ ssize_t zm_read(int fd, FAR uint8_t *buffer, size_t buflen); /**************************************************************************** * Name: zm_getc * * Description: * Read a one byte of data from a read-able stream. * ****************************************************************************/ int zm_getc(int fd); /**************************************************************************** * Name: zm_write * * Description: * Write a buffer of data to a write-able stream. * ****************************************************************************/ ssize_t zm_write(int fd, FAR const uint8_t *buffer, size_t buflen); /**************************************************************************** * Name: zm_remwrite * * Description: * Write a buffer of data to the remote peer. * ****************************************************************************/ #ifdef CONFIG_SYSTEM_ZMODEM_DUMPBUFFER ssize_t zm_remwrite(int fd, FAR const uint8_t *buffer, size_t buflen); #else # define zm_remwrite(f,b,s) zm_write(f,b,s) #endif /**************************************************************************** * Name: zm_writefile * * Description: * Write a buffer of data to file, performing newline conversions as * necessary. * * NOTE: Not re-entrant. CR-LF sequences that span buffer boundaries are * not guaranteed to be handled correctly. * ****************************************************************************/ int zm_writefile(int fd, FAR const uint8_t *buffer, size_t buflen, bool zcnl); /**************************************************************************** * Name: zm_filecrc * * Description: * Perform CRC32 calculation on a file. * * Assumptions: * The allocated I/O buffer is available to buffer file data. * ****************************************************************************/ uint32_t zm_filecrc(FAR struct zm_state_s *pzm, FAR const char *filename); /**************************************************************************** * Name: zm_rawmode * * Description: * Set the terminal to the raw mode * ****************************************************************************/ #ifdef CONFIG_SERIAL_TERMIOS void zm_rawmode(int fd); #endif /**************************************************************************** * Name: zm_flowc * * Description: * Enable hardware Rx/Tx flow control. * ****************************************************************************/ #ifdef CONFIG_SYSTEM_ZMODEM_FLOWC void zm_flowc(int fd); #endif /**************************************************************************** * Name: zm_putzdle * * Description: * Transfer a value to a buffer performing ZDLE escaping if necessary * * Input Parameters: * pzm - Zmodem session state * buffer - Buffer in which to add the possibly escaped character * ch - The raw, unescaped character to be added * ****************************************************************************/ FAR uint8_t *zm_putzdle(FAR struct zm_state_s *pzm, FAR uint8_t *buffer, uint8_t ch); /**************************************************************************** * Name: zm_senddata * * Description: * Send data to the remote peer performing CRC operations as necessary * (ZBIN or ZBIN32 format assumed, ZCRCW terminator is always used) * * Input Parameters: * pzm - Zmodem session state * buffer - Buffer of data to be sent * buflen - The number of bytes in buffer to be sent * ****************************************************************************/ int zm_senddata(FAR struct zm_state_s *pzm, FAR const uint8_t *buffer, size_t buflen); /**************************************************************************** * Name: zm_sendhexhdr * * Description: * Send a ZHEX header to the remote peer performing CRC operations as * necessary. * * Input Parameters: * pzm - Zmodem session state * type - Header type {ZRINIT, ZRQINIT, ZDATA, ZACK, ZNAK, ZCRC, ZRPOS, * ZCOMPL, ZEOF, ZFIN} * buffer - 4-byte buffer of data to be sent * * Assumptions: * The allocated I/O buffer is available to buffer file data. * ****************************************************************************/ int zm_sendhexhdr(FAR struct zm_state_s *pzm, int type, FAR const uint8_t *buffer); /**************************************************************************** * Name: zm_sendbin16hdr * * Description: * Send a ZBIN header to the remote peer performing CRC operations as * necessary. Normally called indirectly through zm_sendbinhdr(). * * Input Parameters: * pzm - Zmodem session state * type - Header type {ZSINIT, ZFILE, ZDATA, ZDATA} * buffer - 4-byte buffer of data to be sent * * Assumptions: * The allocated I/O buffer is available to buffer file data. * ****************************************************************************/ int zm_sendbin16hdr(FAR struct zm_state_s *pzm, int type, FAR const uint8_t *buffer); /**************************************************************************** * Name: zm_sendbin32hdr * * Description: * Send a ZBIN32 header to the remote peer performing CRC operations as * necessary. Normally called indirectly through zm_sendbinhdr(). * * Input Parameters: * pzm - Zmodem session state * type - Header type {ZSINIT, ZFILE, ZDATA, ZDATA} * buffer - 4-byte buffer of data to be sent * * Assumptions: * The allocated I/O buffer is available to buffer file data. * ****************************************************************************/ int zm_sendbin32hdr(FAR struct zm_state_s *pzm, int type, FAR const uint8_t *buffer); /**************************************************************************** * Name: zm_sendbinhdr * * Description: * Send a binary header to the remote peer. This is a simple wrapping * function for zm_sendbin16hdr() and zm_sendbin32hdr(). It decides on * the correct CRC format and re-directs the call appropriately. * * Input Parameters: * pzm - Zmodem session state * type - Header type {ZSINIT, ZFILE, ZDATA, ZDATA} * buffer - 4-byte buffer of data to be sent * * Assumptions: * The allocated I/O buffer is available to buffer file data. * ****************************************************************************/ int zm_sendbinhdr(FAR struct zm_state_s *pzm, int type, FAR const uint8_t *buffer); /**************************************************************************** * Name: zm_datapump * * Description: * Drive the Zmodem state machine by reading data from the remote peer and * providing that data to the parser. This loop runs until a fatal error * is detected or until the state machine reports that the transfer has * completed successfully. * ****************************************************************************/ int zm_datapump(FAR struct zm_state_s *pzm); /**************************************************************************** * Name: zm_readstate * * Description: * Enter PSTATE_DATA. * ****************************************************************************/ void zm_readstate(FAR struct zm_state_s *pzm); /**************************************************************************** * Name: zm_timeout * * Description: * Called by the watchdog logic if/when a timeout is detected. * ****************************************************************************/ int zm_timeout(FAR struct zm_state_s *pzm); /**************************************************************************** * Name: zm_rcvpending * * Description: * Return true if data from the remote receiver is pending. In that case, * the local sender should stop data streaming operations and process the * incoming data. * ****************************************************************************/ #ifdef CONFIG_SYSTEM_ZMODEM_RCVSAMPLE bool zm_rcvpending(FAR struct zm_state_s *pzm); #endif /**************************************************************************** * Name: zm_timerinit * * Description: * Create the POSIX timer used to manage timeouts and attach the SIGALRM * signal handler to catch the timeout events. * ****************************************************************************/ int zm_timerinit(FAR struct zm_state_s *pzm); /**************************************************************************** * Name: zm_timerstart * * Description: * Start, restart, or stop the timer. * ****************************************************************************/ int zm_timerstart(FAR struct zm_state_s *pzm, unsigned int sec); /**************************************************************************** * Name: zm_timerstop * * Description: * Stop the timer. * ****************************************************************************/ #define zm_timerstop(p) zm_timerstart(p,0) /**************************************************************************** * Name: zm_timerrelease * * Description: * Destroy the timer and and detach the signal handler. * ****************************************************************************/ int zm_timerrelease(FAR struct zm_state_s *pzm); /**************************************************************************** * Name: zm_dumpbuffer * * Description: * Dump a buffer of zmodem data. * ****************************************************************************/ #ifdef CONFIG_SYSTEM_ZMODEM_DUMPBUFFER # define zm_dumpbuffer(m,b,s) lib_dumpbuffer(m,b,s) #else # define zm_dumpbuffer(m,b,s) #endif #undef EXTERN #if defined(__cplusplus) } #endif #endif /* __APPS_SYSTEM_XMODEM_ZM_H */